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GNSS Precise Kinematic Positioning for Multiple Kinematic Stations Based on A Priori Distance Constraints

机译：基于先验距离约束的多运动站GNSS精确运动定位

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摘要

When applying the Global Navigation Satellite System (GNSS) for precise kinematic positioning in airborne and shipborne gravimetry, multiple GNSS receiving equipment is often fixed mounted on the kinematic platform carrying the gravimetry instrumentation. Thus, the distances among these GNSS antennas are known and invariant. This information can be used to improve the accuracy and reliability of the state estimates. For this purpose, the known distances between the antennas are applied as a priori constraints within the state parameters adjustment. These constraints are introduced in such a way that their accuracy is taken into account. To test this approach, GNSS data of a Baltic Sea shipborne gravimetric campaign have been used. The results of our study show that an application of distance constraints improves the accuracy of the GNSS kinematic positioning, for example, by about 4 mm for the radial component.

机译：当将全球导航卫星系统（GNSS）用于机载和舰载重力测量中的精确运动定位时，通常会将多个GNSS接收设备固定安装在装有重力测量仪器的运动平台上。因此，这些GNSS天线之间的距离是已知且不变的。该信息可用于提高状态估计的准确性和可靠性。为此，将天线之间的已知距离用作状态参数调整中的先验约束。引入这些约束时要考虑到它们的准确性。为了测试此方法，已使用波罗的海舰载重量战役的GNSS数据。我们的研究结果表明，距离约束的应用提高了GNSS运动定位的精度，例如，径向分量提高了约4 mm。

著录项

期刊名称 Sensors (Basel Switzerland)
作者
Kaifei He; Tianhe Xu; Christoph Förste; Svetozar Petrovic; Franz Barthelmes; Nan Jiang; Frank Flechtner;
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作者单位

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年(卷),期 2016(16),4
年度 2016
页码 470
总页数 11
原文格式 PDF
正文语种
中图分类
关键词
airborne gravimetry shipborne gravimetry GNSS sensors system precise kinematic positioning a priori distance constraint multiple kinematic stations;

机译：机载重量分析仪;船载重量分析仪;GNSS传感器系统;精确的运动学定位;先验距离约束;多个运动学站;

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专利

1. GNSS Precise Kinematic Positioning for Multiple Kinematic Stations Based on A Priori Distance Constraints [J] . Kaifei He, Tianhe Xu, Christoph F?rste, Sensors . 2016,第4期

机译：基于先验距离约束的多个运动站的GNSS精确运动定位
2. A reference station-based GNSS computing mode to support unified precise point positioning and real-time kinematic services [J] . Yanming Feng, Shengfeng Gu, Chuang Shi, Journal of Geodesy . 2013,第10a12期

机译：基于参考站的GNSS计算模式，可支持统一的精确点定位和实时运动服务
3. Performance Evaluation of Kinematic BDS/GNSS Real-Time Precise Point Positioning for Maritime Positioning [J] . Yang Fuxin, Zhao Lin, Li Liang, The Journal of Navigation . 2019,第1期

机译：用于海上定位的运动学BDS / GNSS实时精确点定位的性能评估
4. Multi-GNSS Kinematic Relative Positioning of Multiple Base Stations and Its Application in Deformation Monitoring [C] . Honglin Tang, Tianhe Xu China satellite navigation conference . 2019

机译：多个基站的多GNSS运动学相对定位及其在变形监测中的应用
5. Precise Point Positioning Inertial Navigation Integration for Kinematic Airborne Applications. [D] . Watson, Ryan. 2017

机译：适用于运动机载应用的精确点定位惯性导航集成。
6. Medium to Long Range Kinematic GPS Positioning with Position-Velocity-Acceleration Model Using Multiple Reference Stations [O] . Chang-Ki Hong, Chi Ho Park, Joong-hee Han, 2015

机译：具有多个参考站的位置-速度-加速度模型的中长距离运动GPS定位
7. GNSS Precise Kinematic Positioning for Multiple Kinematic Stations Based on A Priori Distance Constraints [O] . Kaifei He, Tianhe Xu, Christoph Förste, 2016

机译：基于先验距离约束的多运动站GNss精确运动定位
8. Development and Testing of a High-Speed Real-Time Kinematic Precise DGPS Positioning System Between Two Aircraft [R] . Spinelli, C. J. 2006

机译：两架飞机之间高速实时动态精确DGps定位系统的开发与测试

GNSS Precise Kinematic Positioning for Multiple Kinematic Stations Based on A Priori Distance Constraints

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